Semiconductor integrated circuit for communication

Title: Semiconductor integrated circuit for communication

Brief Patent Description - Full Patent Description - Patent Claims

The Patent Description & Claims data below is from USPTO Patent Application 20060220757, Semiconductor integrated circuit for communication.

1. A semiconductor integrated circuit for communication comprising: a loop that includes: an oscillation circuit constructed to be able to oscillate in plural frequency bands; a variable frequency divider that frequency-divides an output signal of the oscillation circuit at a specified frequency division ratio; a fixed frequency divider that frequency-divides a reference signal having a predetermined frequency at a predetermined frequency division ratio; a phase comparison circuit that compares the phase of an output signal of the variable frequency divider and the phase of an output signal of the fixed frequency divider to detect a phase difference; a loop filter that generates a control voltage corresponding to the output of the phase comparison circuit, and controls oscillation frequencies of the variable oscillation circuit by a control voltage generated by the loop filter; a switching means that can supply a voltage of a predetermined level to the loop filter in place of the output of the phase comparison circuit when the loop is open; and a band switching circuit that, in a state of supplying a control voltage of the predetermined level to the oscillation circuit by supplying the voltage of the predetermined level to the loop filter by the switching means, compares the phase of an output signal of the variable frequency divider and the phase of an output signal of the fixed frequency divider to select an oscillation frequency band of the oscillation circuit, wherein, after applying a control voltage of a first predetermined level to the oscillation circuit by the switching means, and selecting a frequency band by the band switching circuit, the semiconductor integrated circuit for communication applies a control voltage of a predetermined level different from the first predetermined level, and decides in which region on a line of control voltage to oscillation frequency characteristics the oscillation circuit is operating, based on a comparison result of the phase comparison circuit.

2. The semiconductor integrated circuit for communication according to claim 1, in a state of applying a control voltage of the first predetermined level or a control voltage of another predetermined level to the oscillation circuit, closing the loop to start a frequency locking operation.

3. The semiconductor integrated circuit for communication according to claim 2, wherein the semiconductor integrated circuit for communication provides three or more of control voltages of the predetermined levels, switches these control voltages to decide in which region on a line of control voltage to oscillation frequency characteristics the oscillation circuit is operating, and in a state of applying one of the three or more of control voltages of the predetermined levels to the oscillation circuit, closing the loop to start a frequency locking operation.

4. The semiconductor integrated circuit for communication according to claim 3, wherein the number of regions in which the oscillation circuit can operate is the n-th power (n is a positive integer) of two, and the semiconductor integrated circuit for communication decides a region in which the oscillation circuit operates, by a binary search method while switching the control voltages.

5. The semiconductor integrated circuit for communication according to claim 1, wherein the control voltage to oscillation frequency characteristics of the oscillation circuit has positive characteristics that when a control voltage is higher, a frequency becomes higher, and when the oscillation circuit is operating in a region corresponding to a control voltage higher than the control voltages of the predetermined levels on a line of control voltage to oscillation frequency characteristics, in a state of applying a control voltage of another predetermined level higher than the control voltages of the predetermined levels to the oscillation circuit, closing the loop to start a frequency locking operation, while when the oscillation circuit is operating in a region corresponding to a control voltage lower than the control voltages of the predetermined levels on a line of control voltage to oscillation frequency characteristics, in a state of applying the control voltages of the predetermined levels to the oscillation circuit, closing the loop to start a frequency locking operation.

6. The semiconductor integrated circuit for communication according to claim 1, wherein the band switching circuit decides a final frequency band to be selected, by the binary search method through repeated executions of comparison between the phase of an output signal of the variable frequency divider and the phase of an output signal of the fixed frequency divider, and changes of an oscillation frequency band to be selected based on the comparison result.

7. The semiconductor integrated circuit for communication according to claim 1, wherein the semiconductor integrated circuit for communication closes the loop to start a frequency locking operation in a state of keeping the frequency band or switching it to an adjacent frequency band according to the decision result and the temperature characteristics of oscillation frequencies of the oscillation circuit, and applying a control voltage of another predetermined level to the oscillation circuit.

8. The semiconductor integrated circuit for communication according to claim 7, wherein the control voltage to oscillation frequency characteristics of the oscillation circuit has positive characteristics that when a control voltage is higher, an oscillation frequency becomes higher, wherein the temperature characteristics of oscillation frequencies of the oscillation circuit have negative characteristics that when a temperature is higher, an oscillation frequency becomes lower, and when it is decided that the oscillation circuit is operating in a region corresponding to a control voltage lower than the control voltages of the predetermined levels on a line of control voltage to oscillation frequency characteristics, the semiconductor integrated circuit for communication switches an oscillation frequency band to an adjacent oscillation frequency band of a lower oscillation frequency, and wherein the temperature characteristics of oscillation frequencies of the oscillation circuit have positive characteristics that when a temperature is higher, an oscillation frequency becomes higher, and when it is decided that the oscillation circuit is operating in a region corresponding to a control voltage higher than the control voltages of the predetermined levels on a line of control voltage to oscillation frequency characteristics, the semiconductor integrated circuit for communication switches an oscillation frequency band to an adjacent oscillation frequency band of a higher oscillation frequency.

9. The semiconductor integrated circuit for communication according to claim 1, wherein the semiconductor integrated circuit for communication processes receive signals of the WCMDA system using a first local oscillation signal of a first frequency, and processes transmission signals of the WCMDA system using a second local oscillation signal of a second frequency, wherein the first local oscillation signal and the second local oscillation signal are respectively generated by distinct oscillation circuits.

10. The semiconductor integrated circuit for communication according to claim 1, which processes receive signals and transmission signals of the GSM system using local oscillation signals of predetermined frequencies, wherein the local oscillation signals are generated by the oscillation circuit.

11. A semiconductor integrated circuit for communication, comprising: a loop that includes: an oscillation circuit constructed to be able to oscillate in one continuous frequency band; a variable frequency divider that frequency-divides an output signal of the oscillation circuit at a specified frequency division ratio; a fixed frequency divider that frequency-divides a reference signal having a predetermined frequency at a predetermined frequency division ratio; a phase comparison circuit that compares the phase of an output signal of the variable frequency divider and the phase of an output signal of the fixed frequency divider to detect a phase difference; and a loop filter that generates a voltage corresponding to the output of the phase comparison circuit, and controls oscillation frequencies of the variable oscillation circuit by a voltage generated by the loop filter; and a switching means that can supply a voltage of a predetermined level to the loop filter in place of the output of the phase comparison circuit when the loop is open, wherein, in a state of supplying a control voltage of the predetermined level to the oscillation circuit by supplying the voltage of the predetermined level to the loop filter by the switching means, the semiconductor integrated circuit for communication compares the phase of an output signal of the variable frequency divider and the phase of an output signal of the fixed frequency divider, decides in which region on a line of voltage to frequency characteristics the oscillation circuit is operating, by a binary search method while switching the control voltages, and in a state of applying a control voltage of a predetermined level corresponding to the decision result to the oscillation circuit, closes the loop to start a frequency locking operation.

Brief Patent Description - Full Patent Description - Patent Claims

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